DE4135614A1 - Tension distribution measuring device across moving strip during cold rolling - has strain gauges recessed into surface of roller under bridges which maintain fullness of cross-section - Google Patents

Abstract

The strip runs over a measuring roller with axially offset and diametrically opposed recesses in its periphery contg. a strain gauge (16) under a covering bridge (6) secured by screws (18). Axial transmission of force is excluded by the mounting of the strain gauges in the radial direction on upstanding surfaces (4,5). Bores (14) lead from both recesses into a central channel (13) along the axis (12) for extn. of measured values. USE/ADVANTAGE - Esp. on cold-rolled steel strip. Measuring roller can be of smaller dia. withstanding greater bending moments and giving largely noise-free signal.

Description

The invention relates to a device according to the preamble of claim 1 described Art.

Such a device is known from DE-PS 26 30 410. Then force transducers with output signals that can be connected in parallel len, in particular piezo quartz sensors, one behind the other as well peripherally offset in sections formed by rings of an um Steering measuring roller used to track the force distribution to be able to. The sections consisting of rings are included secured against rotation by means of bolts and tense. The latter thus form the resilient cross section the deflection measuring roller, which responds to bending, for example. in the The interest of a favorable bending moment lies in the bracing or the bolts as far as possible from the axis of the rotating To provide deflection measuring roller removed. On the other hand, the strength to lie in the outermost zone of the deflection measuring roller, in order to to produce as little disturbed measurement signals. However, they are elastic Deformations inevitable, which in the peripheral zone on the Force sensors can act.

To keep these influences low without making a costly mistake DE-PS 29 44 723 sees the need to take corrective action before performing the role of individual rings so that the loading areas that take over the measurement are structurally separated from those who take over the support. Here are the outermost ring zones, which carry the force transducers Axial distances from each other, so that no axial Forces are transferable. This arrangement has proven itself, however it is with a considerable increase in the diameter of the deflection connected measuring roller, which complicates their execution and assembly and furthermore the difficulty of close tolerances even with larger ones Maintain dimensions, operational results do not  leaves unaffected.

In contrast, the invention is based, the deflection to develop the measuring roller so that it with less Diameter can be carried out, greater resilience absorbs bending forces and thereby to further disturbance leads free measurement signals.

The invention solves this problem by the in the patent proposals made.

Accordingly, a first advantage is that the largely massive cross section of the deflection measuring roller a significantly larger Be load area is created, for example bending forces counteracts. The only larger cross section that is needed is the central conduit in which all of the force is measured sensors leading into the connections. As a result of the central Po sition, this does not have a particularly negative effect on the bending moment lig out. In contrast, the marginal zones remain largely unused influenced cross section. They form a favorable basis for that Incorporation of contact patches for which in the radial direction Non-positive connection is given, so that the loads mentioned in this Act on the force transducer when measuring. For this is decisive that on the one hand the axial areas of influence by the incorporation of parting lines are switched off, and that at on the other hand, the material connection of the contact areas with the rest full cross section is retained.

The effect of disruptive influences on the force transducers to keep it low, the signal lines lead through drilling with an axial distance from the contact patches approximately tangential flowing into the central line. This location for the Sig nal cable also allows easy access during assembly the force transducer on their contact areas.  

The force transducers are applied to the outside provided the bridges to the two axial sides of the force mounted on the contact surfaces of the receiving chambers are. These bridges have the outer contour of the deflection measuring roller, with what they uninterruptedly in the rolling process of the deflection of the belt insert while being sensitive to stress ren. One can build such bridges according to another characteristic of the Er finding for setting the preload for the force transducers to lead. The voltage with which it acts on the force transducer ken, can be secured by the bridge with wedge bolts or pins, can be set particularly sensitively, however, using bolts, their threads in screw threads, which from the bottom of the collecting chamber cut out, intervene.

It has proven to be useful to be in the new Umlenkmeßrolle ready to drive with a plastic jacket. Basically, a plastic jacket, as in DE-PS is suitable 29 24 314 for sheathing a measuring roller consisting of rings, is proposed.

The proposed receiving chamber allows different training fertilize. On the one hand, it can be from a recess stand so that the narrow rectangular sides of the incision tes results in a rounding. On the other hand, you can also continuous, secant-like cut in the outer surface of the um Execute steering measuring roller, in which case the receiving chamber something becomes longer and assumes a rectangular cross-section. For this In case it is appropriate to bridge the first section wedge to adapt to the periphery of the deflection measuring roller. In both In some cases, the parting lines remain in place, although in addition between the outer edges and the adjacent one, in the mantle of the Roll incorporated chamber wall a gap remains free.

Optionally, one can be located below the footprint Chen insert a mounting pin above the Force transducer engages in the bridge, and that in the assembly channel with  means of a wedge pin can be clamped. In this case it is enough a wedge pin to fi the force transducer and its bridge xieren. On the other hand, a simpler type of ver Select the turn if the. on both sides of the contact area Bridge attachment is made using wedge bolts.

To further illustrate the invention, reference is made to the drawing nations referred, the different versions schematically illustrate. In it show:

Fig. 1 shows the basic structure of the new Deflection roll in a lateral, partially sectioned view,

Fig. 2 is a view corresponding to the section AB in Fig. 1,

Fig. 3 shows two different embodiments of the receiving chambers in cross-sectional views and view in plan,

Fig. 4 shows a further modification of the receiving chamber in a top view and in a side view and

Fig. 5 shows a further modification of the embodiment of the receiving chamber in a side view and in plan view.

Fig. 1 shows the execution of the form A and the form B. It is known that the receiving chambers 1 have a greater longitudinal extent than the receiving chambers 2 , which is due to the fact that in the case of the form A, as shown in FIG. 2, a Incision was made, whereas embodiment B is designed as a straight secant cut. The receiving chambers 1 and 2 correspond to the forms B and A. In addition to the contact surfaces 4 and 5 , the joint 3 can be seen.

The deflection measuring roller 10 has a largely preserved cross section 11 , in the axis 12 of the central conduit 13 runs. The bore 14 is used to derive measured values from the receiving chamber into the central duct. In the upper part of Fig. 2, a force transducer 16 is used, which is covered with the bridge 6 to the outside. The bridge is fixed in the cross section of the deflecting roller 10 with screw bolts 18 provided on both sides of the contact surface. The tension of the screws allows the preload to be set for the force transducer 16 .

Fig. 3 shows again in an enlarged representation the two embodiments A and B, both in section and in plan view.

The parting line 3 extends in the radial direction, so that no stresses can be transmitted in the axial direction.

The bridge 6 , like the bridge 8 , is dimensioned such that a gap remains at the peripheral edges in the circumferential direction, so that forces are likewise not transferable in the circumferential direction.

For embodiment B, a shape-filling gusset 17 is inserted in addition to a bridge 8 and its free gap in order to ensure that the deflection roller 10 runs smoothly.

The modification of the receiving chamber according to the form C is shown in Fig. 4, also in cross section and in plan view. Here 6 wedge pins 9 are used to fix the bridge, which run on both sides of the force transducer 16 .

In the embodiment according to FIG. 5, form D, an assembly channel is provided below the contact surface, in which a pin is arranged which penetrates the force transducer 16 and which engages in the bridge 8 . By means of the wedge pin 15 , the aforementioned pin can be loaded, so that the bridge 8 is fixed in a single operation and the force transducer is pre-tensioned.

Claims (13)

1. Device for measuring the stress distribution over the width of flexible, moving in the longitudinal direction of the bands, in particular of steel strips during cold rolling, best consisting of one with the strip deflected under tension around the current deflection roller with one behind the other and peripherally offset from one another arranged on receiving chambers for force transducers, on which the tension of the strips acts, characterized in that
that the receiving chambers ( 1 , 2 ) are provided in the edge zone of the roller ( 10 ) which, with the exception of line and assembly ducts, has a full cross section,
wherein for the force transducers ( 16 ) in the radial direction Rich are seen on contact surfaces ( 4 , 5 ) before,
On their two axial sides parting lines ( 3 ) are incorporated in such a way that in addition to them the fabric circuit with the roller cross-section ( 11 ) is preserved GE. 2. Device according to claim 1, characterized in that in the roller axis ( 12 ) runs on the force transducers ( 16 ) common central conduit ( 13 ). 3. Device according to claims 1 and 2, characterized in that the lines of the force transducers ( 16 ) lead through bores ( 14 ) in the central duct, which exist at an axial distance next to the force transducers ( 16 ), and which are approximately tangential in the central conduit ( 13 ) open. 4. Device according to claims 1 to 3, characterized in that the force transducers ( 16 ) are acted upon by bridges ( 6 ) from the outer contour of the deflection measuring roller ( 10 ), the surfaces of the force transducer ( 16 ) on both sides of the uprising ( 4 , 5th ) the receiving chambers are attached. 5. The device according to claim 4, characterized in that the bias of the force transducer ( 16 ) is adjustable by means of the bridges ( 6 ). 6. Device according to claims 4 and 5, characterized in that the bridge ( 8 ) in the receiving chamber by Keilbol zen ( 9 ) is fixed. 7. Device according to claims 1 to 6, characterized, that the pulley in the operational state by means of a plastic jacket is axially immovably encased is. 8. Device according to claims 1 to 5, characterized in that the bridge ( 8 ) by means of screw bolts ( 18 ) is fixed in the receiving chamber. 9. Device according to claims 1 to 5, characterized in that the bridge ( 8 ) with the force transducer ( 16 ) is mechanically connected so that the force transducer ( 16 ) and the bridge ( 8 ) on the basis of a common wedge pin ( 15 ) are attached in their receiving chamber below the contact surface of the force transducer ( 16 ). 10. Device according to claims 1 to 9, characterized, that the receiving chamber through one opposite the coat surface of the deflection measuring roller deepened, secant-like incision is formed (Form A). 11. Device according to claims 1 to 9, characterized in that the receiving chamber in the form of a continuous, sekan ten-like cut in the lateral surface of the deflection roll ( 10 ) is executed (form B). 12. Device according to claims 1 to 10, characterized in that there is a mounting channel for a mounting pin below the contact surface, which engages above the force transducer in the bridge ( 8 ) and is to be braced by means of a wedge pin (form D). 13. The device according to claims 1 to 10, characterized that the bridge on both sides of the footprint with Wedge pin is fixed in the deflection measuring roller. (Form C)